{ "cells": [ { "cell_type": "code", "execution_count": 1, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:19.015734Z", "start_time": "2021-04-02T02:39:17.737431Z" }, "tags": [ "remove_cell" ] }, "outputs": [], "source": [ "import torch\n", "import torch.nn as nn\n", "import torch.nn.functional as F\n", "import torchvision \n", "from torch.nn.utils.rnn import pack_padded_sequence, pad_packed_sequence\n", "from torchvision import transforms\n", "\n", "from torch.utils.data import Dataset, DataLoader\n", "\n", "from tqdm.autonotebook import tqdm\n", "\n", "import numpy as np\n", "import seaborn as sns\n", "import matplotlib.pyplot as plt\n", "from matplotlib.pyplot import imshow\n", "\n", "import pandas as pd\n", "\n", "from sklearn.metrics import accuracy_score\n", "\n", "import time\n", "\n", "from idlmam import train_network, Flatten, weight_reset, View, set_seed\n", "from idlmam import AttentionAvg, GeneralScore, DotScore, AdditiveAttentionScore, ApplyAttention, getMaskByFill" ] }, { "cell_type": "code", "execution_count": 2, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:19.020786Z", "start_time": "2021-04-02T02:39:19.017111Z" }, "tags": [ "remove_cell" ] }, "outputs": [], "source": [ "%matplotlib inline\n", "from IPython.display import set_matplotlib_formats\n", "set_matplotlib_formats('png', 'pdf')\n", "\n", "from IPython.display import display_pdf\n", "from IPython.display import Latex" ] }, { "cell_type": "code", "execution_count": 3, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:19.027469Z", "start_time": "2021-04-02T02:39:19.021895Z" }, "tags": [ "remove_cell" ] }, "outputs": [], "source": [ "torch.backends.cudnn.deterministic=True\n", "set_seed(42)" ] }, { "cell_type": "code", "execution_count": 4, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:19.068731Z", "start_time": "2021-04-02T02:39:19.028602Z" }, "tags": [ "remove_cell" ] }, "outputs": [], "source": [ "device = torch.device(\"cuda\") if torch.cuda.is_available() else torch.device(\"cpu\")" ] }, { "cell_type": "code", "execution_count": 5, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:19.085718Z", "start_time": "2021-04-02T02:39:19.070201Z" }, "tags": [ "remove_cell" ] }, "outputs": [], "source": [ "B = 128\n", "epochs = 10" ] }, { "cell_type": "code", "execution_count": 6, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:20.252467Z", "start_time": "2021-04-02T02:39:19.087349Z" } }, "outputs": [], "source": [ "from io import BytesIO\n", "from zipfile import ZipFile\n", "from urllib.request import urlopen\n", "import re\n", "\n", "all_data = []\n", "resp = urlopen(\"https://download.pytorch.org/tutorial/data.zip\")\n", "zipfile = ZipFile(BytesIO(resp.read()))\n", "for line in zipfile.open(\"data/eng-fra.txt\").readlines():\n", " line = line.decode('utf-8').lower()#lower case only please\n", " line = re.sub(r\"[-.!?]+\", r\" \", line)#no puntuation\n", " source_lang, target_lang = line.split(\"\\t\")[0:2]\n", " all_data.append( (source_lang.strip(), target_lang.strip()) ) #(english, french)" ] }, { "cell_type": "code", "execution_count": 7, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:20.265708Z", "start_time": "2021-04-02T02:39:20.254416Z" } }, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ "('go', 'va')\n", "('run', 'cours')\n", "('run', 'courez')\n", "('wow', 'ça alors')\n", "('fire', 'au feu')\n", "('help', \"à l'aide\")\n", "('jump', 'saute')\n", "('stop', 'ça suffit')\n", "('stop', 'stop')\n", "('stop', 'arrête toi')\n" ] } ], "source": [ "for i in range(10):\n", " print(all_data[i])" ] }, { "cell_type": "code", "execution_count": 8, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:20.418728Z", "start_time": "2021-04-02T02:39:20.267277Z" } }, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ "Using 66251 / 135842\n" ] } ], "source": [ "short_subset = [] #the subset we will actually use\n", "MAX_LEN = 6\n", "for (s, t) in all_data:\n", " if max(len(s.split(\" \")), len(t.split(\" \"))) <= MAX_LEN:\n", " short_subset.append((s,t))\n", "print(\"Using \", len(short_subset), \"/\", len(all_data))" ] }, { "cell_type": "code", "execution_count": 9, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:20.550299Z", "start_time": "2021-04-02T02:39:20.419974Z" } }, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ "Size of Vocab: 24577\n" ] } ], "source": [ "SOS_token = \"\" #\"START_OF_SENTANCE_TOKEN\"\n", "EOS_token = \"\" #\"END_OF_SENTANCE_TOKEN\"\n", "PAD_token = \"_PADDING_\"\n", "\n", "word2indx = {PAD_token:0, SOS_token:1, EOS_token:2}\n", "for s, t in short_subset:\n", " for sentance in (s, t):\n", " for word in sentance.split(\" \"):\n", " if word not in word2indx:\n", " word2indx[word] = len(word2indx)\n", "print(\"Size of Vocab: \", len(word2indx))\n", "#build the inverted dict for looking at the outputs later\n", "indx2word = {}\n", "for word, indx in word2indx.items():\n", " indx2word[indx] = word" ] }, { "cell_type": "code", "execution_count": 10, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:20.556031Z", "start_time": "2021-04-02T02:39:20.551494Z" } }, "outputs": [], "source": [ "class TranslationDataset(Dataset):\n", " \"\"\"\n", " Takes a dataset with tuples of strings (x, y) and\n", " converts them to tuples of int64 tensors. \n", " This makes it easy to encode Seq2Seq problems.\n", " \n", " Strings in the input and output targets will be broken up by spaces\n", " \"\"\"\n", "\n", " def __init__(self, lang_pairs, word2indx):\n", " \"\"\"\n", " lang_pairs: a List[Tuple[String,String]] containing the source,target pairs for a Seq2Seq problem. \n", " word2indx: a Map[String,Int] that converts each word in an input string into a unique ID. \n", " \"\"\"\n", " self.lang_pairs = lang_pairs\n", " self.word2indx = word2indx\n", "\n", " def __len__(self):\n", " return len(self.lang_pairs)\n", "\n", " def __getitem__(self, idx):\n", " x, y = self.lang_pairs[idx]\n", " x = SOS_token + \" \" + x + \" \" + EOS_token\n", " y = y + \" \" + EOS_token\n", " \n", " #convert to lists of integers\n", " x = [self.word2indx[w] for w in x.split(\" \")]\n", " y = [self.word2indx[w] for w in y.split(\" \")]\n", " \n", " x = torch.tensor(x, dtype=torch.int64)\n", " y = torch.tensor(y, dtype=torch.int64)\n", " \n", " return x, y\n", "bigdataset = TranslationDataset(short_subset, word2indx)" ] }, { "cell_type": "code", "execution_count": 11, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:20.561896Z", "start_time": "2021-04-02T02:39:20.557175Z" }, "tags": [ "remove_cell" ] }, "outputs": [], "source": [ "#Want a consistent dataset split\n", "set_seed(42)" ] }, { "cell_type": "code", "execution_count": 12, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:20.572512Z", "start_time": "2021-04-02T02:39:20.563126Z" } }, "outputs": [], "source": [ "train_size = round(len(bigdataset)*0.9)\n", "test_size = len(bigdataset)-train_size\n", "train_dataset, test_dataset = torch.utils.data.random_split(bigdataset, [train_size, test_size])\n", "\n", "def pad_batch(batch):\n", " \"\"\"\n", " Pad items in the batch to the length of the longest item in the batch\n", " \"\"\"\n", " #We actually have two different maxiumum lengths! The max length of the input sequences, and the max \n", " #length of the output sequences. So we will determine each seperatly, and only pad the inputs/outputs\n", " #by the exact amount we need\n", " max_x = max([i[0].size(0) for i in batch])\n", " max_y = max([i[1].size(0) for i in batch])\n", " \n", " PAD = word2indx[PAD_token]\n", " \n", " #We will use the F.pad function to pad each tensor to the right\n", " X = [F.pad(i[0], (0,max_x-i[0].size(0)), value=PAD) for i in batch]\n", " Y = [F.pad(i[1], (0,max_y-i[1].size(0)), value=PAD) for i in batch]\n", " \n", " X, Y = torch.stack(X), torch.stack(Y)\n", " \n", " return (X, Y), Y\n", "\n", "train_loader = DataLoader(train_dataset, batch_size=B, shuffle=True, collate_fn=pad_batch)\n", "test_loader = DataLoader(test_dataset, batch_size=B, collate_fn=pad_batch)" ] }, { "cell_type": "code", "execution_count": 13, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:20.586635Z", "start_time": "2021-04-02T02:39:20.573708Z" }, "tags": [ "remove_cell" ] }, "outputs": [], "source": [ "class Seq2SeqAttention(nn.Module):\n", "\n", " def __init__(self, num_embeddings, embd_size, hidden_size, padding_idx=None, layers=1, max_decode_length=20):\n", " super(Seq2SeqAttention, self).__init__()\n", " self.padding_idx = padding_idx\n", " self.hidden_size = hidden_size\n", " self.embd = nn.Embedding(num_embeddings, embd_size, padding_idx=padding_idx)\n", " \n", " #We set the hidden size to half the intended length, because we will make the \n", " #encoder bi-directional. That means we will get 2 hidden state representations\n", " #which we will concatinate together, giving us the desired size!\n", " self.encode_layers = nn.GRU(input_size=embd_size, hidden_size=hidden_size//2, \n", " num_layers=layers, bidirectional=True)\n", " #decoder will be uni-directionall, and we need to use CRUCells so that we can \n", " #do the decoding one step at a time\n", " self.decode_layers = nn.ModuleList([nn.GRUCell(embd_size, hidden_size)] + \n", " [nn.GRUCell(hidden_size, hidden_size) for i in range(layers-1)])\n", " self.score_net = DotScore(hidden_size)\n", " #predict_word will be a small fully connected network that we use to convert the \n", " #result of the attention mechanism and the local context into a prediction for \n", " #the next word\n", " self.predict_word = nn.Sequential(\n", " nn.Linear(2*hidden_size, hidden_size),\n", " nn.LeakyReLU(),\n", " nn.LayerNorm(hidden_size),\n", " nn.Linear(hidden_size, hidden_size),\n", " nn.LeakyReLU(),\n", " nn.LayerNorm(hidden_size),\n", " nn.Linear(hidden_size, num_embeddings)\n", " )\n", " self.max_decode_length = max_decode_length\n", " self.apply_attn = ApplyAttention()\n", " \n", " def forward(self, input):\n", " #Input should be (B, T) or ((B, T), (B, T'))\n", " if isinstance(input, tuple):\n", " input, target = input\n", " else:\n", " target = None\n", " #What is the batch size?\n", " B = input.size(0)\n", " #What is the max number of input time steps?\n", " T = input.size(1)\n", "\n", " x = self.embd(input) #(B, T, D)\n", "\n", " #grab the device that the model currently resides on\n", " #we will need this later \n", " device = x.device\n", "\n", " mask = getMaskByFill(x)\n", "\n", " #We will use the mask to figure out how long \n", " #each input sequence is\n", " seq_lengths = mask.sum(dim=1).view(-1) #shape (B), containing the # of non-zero values\n", " #the sequence lengths will be used to create a packed input for the encoder RNN\n", " x_packed = pack_padded_sequence(x, seq_lengths.cpu(), batch_first=True, enforce_sorted=False)\n", " h_encoded, h_last = self.encode_layers(x_packed)\n", " h_encoded, _ = pad_packed_sequence(h_encoded) #(B, T, 2, D//2) , b/c its bidirectional\n", " h_encoded = h_encoded.view(B, T, -1) #(B, T, D)\n", " #now h_encoded is the result of running the encoder RNN on the input!\n", "\n", "\n", " #getting the last hidden state is a little trickier\n", " #first the output gets reshaped as (num_layers, directions, batch_size, hidden_size)\n", " #and then we grab the last index in the first dimension, because we want the \n", " #last layer's output\n", " hidden_size = h_encoded.size(2) \n", " h_last = h_last.view(-1, 2, B, hidden_size//2)[-1,:,:,:] #shape is now (2, B, D/2)\n", " #now we will reorder to (B, 2, D/2), and flatten the last two dimensions down to (B, D)\n", " h_last = h_last.permute(1, 0, 2).reshape(B, -1)\n", " \n", " \n", " #End of Encoding portion. h_encoded now contains the representation of the input data!\n", " #h_last has the final ouputs of the RNN, to use as the initial input state for the decoder\n", " \n", " #The first input to the decoder will be the output of the last encoder step\n", " #decoder_input = h_last\n", " \n", " # new hidden states for decoders\n", " h_prevs = [h_last for l in range(len(self.decode_layers))]\n", "\n", " #We will save all the attention mechanism results for visualization later!\n", " all_attentions = []\n", " all_predictions = []\n", "\n", " #Grab the last item from the input (which should be an EOS marker)\n", " #as the first input for the decoder\n", " #We could also hard-code the SOS marker instead\n", " decoder_input = self.embd(input.gather(1,seq_lengths.view(-1,1)-1).flatten()) #(B, D)\n", "\n", " #How many decoding steps should we do?\n", " steps = min(self.max_decode_length, T)\n", " #If we are training, the target values tells us exactly\n", " #how many steps to take\n", " if target is not None: #We know the exact decode length!\n", " steps = target.size(1)\n", " \n", " #Do we use teacher forcing (true) or auto-regressive (false)\n", " teacher_forcing = np.random.choice((True,False))\n", " for t in range(steps):\n", " x_in = decoder_input #(B, D)\n", "\n", " for l in range(len(self.decode_layers)):\n", " h_prev = h_prevs[l] \n", " h = self.decode_layers[l](x_in, h_prev)\n", "\n", " h_prevs[l] = h\n", " x_in = h\n", " h_decoder = x_in #(B, D), we now have the hidden state for the decoder at this time step\n", "\n", " #This is the attention mechanism, lets look at all the previous encoded states and \n", " #see which look relevant\n", "\n", " scores = self.score_net(h_encoded, h_decoder) #(B, T, 1)\n", " context, weights = self.apply_attn(h_encoded, scores, mask=mask)\n", "\n", " #save the attention weights for visualization later\n", " all_attentions.append( weights.detach() ) #we are detaching the weights because we \n", " #do not want to compute anything with them anymore, we just want to save their \n", " #values to make visualizations\n", "\n", " #Now lets compute the final representation by concatinating the \n", " #attention result and the initial context\n", " word_pred = torch.cat((context, h_decoder), dim=1) #(B, D) + (B, D) -> (B, 2*D)\n", " #and get a prediction about what the next token is by pushing it\n", " #through a small fully-connected network\n", " word_pred = self.predict_word(word_pred) #(B, 2*D) -> (B, V)\n", " all_predictions.append(word_pred)\n", " \n", " #Now we have $\\hat{y}_t$! we need to select the input for the next\n", " #time step. We use torch.no_grad() because the gradient will \n", " #carry through the hidden states of the RNN, not the input tokens\n", " with torch.no_grad():\n", " if self.training:\n", " if target is not None and teacher_forcing:\n", " #We have the target and selected teacher forcing, so use the\n", " #correct next answer\n", " next_words = target[:,t].squeeze()\n", " else:\n", " #Sample the next token based on the predictions made\n", " next_words = torch.multinomial(F.softmax(word_pred, dim=1), 1)[:,-1]\n", " else:\n", " #we are trying to make an actual prediction, so take the most likely word\n", " #we could improve this by using temperature and sampling like we did \n", " #for the CharRNN model!\n", " next_words = torch.argmax(word_pred, dim=1)\n", " #end of torch.no_grad()\n", " \n", " #We've decided what the next tokens are, we are back to using\n", " #the gradient calculation so that the embedding layer is adjusted\n", " #appropriately during training. \n", " decoder_input = self.embd(next_words.to(device))\n", " \n", " #done decoding!\n", " if self.training: #When training, only the predictions are important\n", " return torch.stack(all_predictions, dim=1)\n", " else:#When evaluatin, we also want to look at the attention weights\n", " return torch.stack(all_predictions, dim=1), torch.stack(all_attentions, dim=1).squeeze()" ] }, { "cell_type": "code", "execution_count": 14, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:20.592283Z", "start_time": "2021-04-02T02:39:20.587774Z" }, "tags": [ "remove_cell" ] }, "outputs": [], "source": [ "set_seed(42)" ] }, { "cell_type": "code", "execution_count": 15, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:20.667146Z", "start_time": "2021-04-02T02:39:20.593411Z" } }, "outputs": [], "source": [ "epochs = 20\n", "seq2seq = Seq2SeqAttention(len(word2indx), 64, 256, padding_idx=word2indx[PAD_token], layers=3, max_decode_length=MAX_LEN+2)\n", "for p in seq2seq.parameters():\n", " p.register_hook(lambda grad: torch.clamp(grad, -10, 10))" ] }, { "cell_type": "code", "execution_count": 16, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:39:20.671422Z", "start_time": "2021-04-02T02:39:20.668372Z" } }, "outputs": [], "source": [ "def CrossEntLossTime(x, y):\n", " \"\"\"\n", " x: output with shape (B, T, V)\n", " y: labels with shape (B, T')\n", " \n", " \"\"\"\n", " if isinstance(x, tuple):\n", " x, _ = x\n", " #We do not want to compute a loss for items that have been padded out!\n", " cel = nn.CrossEntropyLoss(ignore_index=word2indx[PAD_token])\n", " T = min(x.size(1), y.size(1))\n", " \n", " loss = 0\n", " for t in range(T):\n", " loss += cel(x[:,t,:], y[:,t])\n", " return loss" ] }, { "cell_type": "code", "execution_count": 17, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:49:02.771218Z", "start_time": "2021-04-02T02:39:20.672587Z" }, "tags": [ "remove_output" ] }, "outputs": [ { "data": { "application/vnd.jupyter.widget-view+json": { 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"name": "stdout", "output_type": "stream", "text": [ "\n" ] } ], "source": [ "seq2seq_results = train_network(seq2seq, CrossEntLossTime, train_loader,epochs=epochs, device=device)" ] }, { "cell_type": "code", "execution_count": 18, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:49:03.022473Z", "start_time": "2021-04-02T02:49:02.772787Z" } }, "outputs": [ { "data": { "text/plain": [ "" ] }, "execution_count": 18, "metadata": {}, "output_type": "execute_result" }, { "data": { "application/pdf": 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\n", 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\n", "text/plain": [ "
" ] }, "metadata": { "needs_background": "light" }, "output_type": "display_data" } ], "source": [ "sns.lineplot(x='epoch', y='train loss', data=seq2seq_results, label='Seq2Seq')" ] }, { "cell_type": "code", "execution_count": 19, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:49:03.028281Z", "start_time": "2021-04-02T02:49:03.023936Z" } }, "outputs": [], "source": [ "def plot_heatmap(src, trg, scores):\n", " fig, ax = plt.subplots()\n", " heatmap = ax.pcolor(scores, cmap='gray')\n", "\n", " ax.set_xticklabels(trg, minor=False, rotation='vertical')\n", " ax.set_yticklabels(src, minor=False)\n", "\n", " # put the major ticks at the middle of each cell\n", " # and the x-ticks on top\n", " ax.xaxis.tick_top()\n", " ax.set_xticks(np.arange(scores.shape[1]) + 0.5, minor=False)\n", " ax.set_yticks(np.arange(scores.shape[0]) + 0.5, minor=False)\n", " ax.invert_yaxis()\n", "\n", " plt.colorbar(heatmap)\n", " plt.show()" ] }, { "cell_type": "code", "execution_count": 20, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:49:03.073143Z", "start_time": "2021-04-02T02:49:03.029730Z" } }, "outputs": [], "source": [ "seq2seq = seq2seq.eval().cpu()\n", "def results(indx):\n", " eng_x, french_y = test_dataset[indx]\n", " eng_str = \" \".join([indx2word[i] for i in eng_x.cpu().numpy()])\n", " french_str = \" \".join([indx2word[i] for i in french_y.cpu().numpy()])\n", " print(\"Input: \", eng_str)\n", " print(\"Target: \", french_str)\n", " \n", " with torch.no_grad():\n", " preds, attention = seq2seq(eng_x.unsqueeze(0))\n", " p = torch.argmax(preds, dim=2)\n", " pred_str = \" \".join([indx2word[i] for i in p[0,:].cpu().numpy()])\n", " print(\"Predicted: \", pred_str)\n", " plot_heatmap(eng_str.split(\" \"), pred_str.split(\" \"), attention.T.cpu().numpy())" ] }, { "cell_type": "code", "execution_count": 21, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:49:03.431726Z", "start_time": "2021-04-02T02:49:03.074711Z" } }, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ "Input: some animals are afraid of fire \n", "Target: certains animaux craignent le feu \n", "Predicted: les animaux ont peur du feu \n" ] }, { "name": "stderr", "output_type": "stream", "text": [ "/home/edraff/anaconda3/lib/python3.7/site-packages/ipykernel_launcher.py:5: UserWarning: FixedFormatter should only be used together with FixedLocator\n", " \"\"\"\n", "/home/edraff/anaconda3/lib/python3.7/site-packages/ipykernel_launcher.py:6: UserWarning: FixedFormatter should only be used together with FixedLocator\n", " \n" ] }, { "data": { "application/pdf": 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\n", 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B0s0kzUs9JgE3B5mZ5SDH3kGLgQmSDknncD+HZPbFl0g6CPg58L6IeDSzfXQ6MjOSRgOnAit6u5hrAmZmOcjrxnBEbJd0MXA7MBSYGxErJc1K988GLgP2IpmTBWB7WrvYl2TSL0g+36+PiAW9Xc9JwMxsgPKeMCYi5gPz67bNzixfBFzUTbnHgKPqt/fGScDMLAet+sSwk4CZWQ6cBMzMKsxJwMysojypjJlZxbVqTSD35wTSfqq/lPSQpBWSzpb0NklL05Ht5koakR77hKQvS7pXUoekYyTdLun/1rpDpcd9QtLidMS8f8k7ZjOzgcpx2IimGoyHxaYD6yPiqIh4PbAAuBY4OyKOJKl9fDhz/NqIOAG4Oz3uLOB44PMAkk4FJpA89XY0MFnSWwYhbjOzXeYk8LLlwCmSLpf0ZmA88HjmqbYfANkP8XmZcvdFxKaIeAp4QdIrSZ54OxVYCjwATCRJCjuRNDOtTXT89a9/zf+nMjPrRasmgdzvCUTEo5ImA+8AvgLc0UeRrel7V2a5tj6MZDClr0TE1X1cdw7JmNocdthh5ftNm1nbauUbw4NxT+A1wJaI+BHwdeBNwHhJ/zk95H3A7/pxytuBCySNSc+/fzo6nplZabgm8LIjga9J6gJeJGn/3wO4SdIwksGRZvdSficRcYekw4B70/EwNgPnAeWYqcTMjNbtHTQYzUG3k3x7r/eGbo4dn1m+luTGcHf7rgCuyC9KM7N8OQmYmVVUWZt6GuEkYGaWAycBM7MKa9XeQU4CZmY5cE3AzKyifE/AzKzinATMzCrMScDMrMKcBEpk48aN3HbbbYXGUJZB7Pbbb7+iQ+Cggw4qOgQAli9fXnQIbN68uegQABgyZDDGjuyfbdu2FR1Cblp57KC2TAJmZs3mmoCZWYU5CZiZVZiTgJlZhTkJmJlVlG8Mm5lVnGsCZmYV5iRgZlZhTgJmZhXlAeTMzCquVZNA7s+OS5ol6f05nesJSePyOJeZ2WDq6upq6FU2gzHR/Oy8z2lmVnZtXROQdIukJZJWSpqZbtss6UuSHpK0SNK+6fbPSbo0Xb5L0rckLZT0sKQ3Svq5pD9I+mJv56+7/mhJv0yvtULS2fn8+GZmA1e7J9DIq2wabQ66ICImA1OASyTtBYwGFkXEUcBC4IM9lN0WEW8BZgO3Ah8FXg+cn56np/NnTQfWR8RREfF6YEH9RSTNlNQhqWPLli0N/lhmZvlo9yRwiaSHgEXAgcAEYBtQG695CTC+h7Lz0vflwMqI+HNEbAUeS8/V0/mzlgOnSLpc0psjYmP9RSJiTkRMiYgpu+++e4M/lplZPvJMApKmS1otaY2kT3ez/1xJy9LXPZKOarRsvT6TgKSTgVOAE9Jv/UuBkcCL8fJPtIOe7y9sTd+7Msu19WG9nP8lEfEoMJkkGXxF0mV9xW1m1kx5JQFJQ4HvADOAw4H3Sjq87rDHgZMiYhLwBWBOP8rupJEbw3sAz0bEFkkTgeMbKNMffZ5f0muAZyLiR5I2A+fnHIOZ2S7LeeygY4E1EfEYgKSfAKcDqzLXuydz/CLggEbL1mskCSwAZklaBqxOL5inRs5/JPA1SV3Ai8CHc47BzGxA+tHeP05SR2Z9TkTMyazvD6zNrK8DjuvlfBcCv9rFsn0ngbT9fkY3u8ZkjvkZ8LN0+XOZ7Sdnlu8C7upuXw/nJyLGp4u3py8zs1LqRxLojIgpvexXd6fv9kBpGkkSmNrfsjV+YtjMLAc59vxZx8udZiBp6llff5CkScA1wIyIeLo/ZbOKn23azKwN5Ng7aDEwQdIhkoYD5/ByL0sAJB0E/Bx4X9pxpuGy9VwTMDMboDxvDEfEdkkXkzSBDwXmRsRKSbPS/bOBy4C9gCslAWxPu8h3W7a36zkJmJnlIM8HwSJiPjC/btvszPJFwEWNlu2Nk4CZWQ7K+DRwI5wEzMxy4CRgZlZRZR0XqBFtmQQ6Ozv57ne/W2gM119/faHXr5k2bVrRIZTmP8fatWv7PmiQjRo1qugQAHjqqaeKDoH0hmbbKMvfeX+1ZRIwM2u2Mk4Y0wgnATOzAXJzkJlZxTkJmJlVmJOAmVmFOQmYmVVUzvMJNJWTgJlZDlwTMDOrMCcBM7MKcxIwM6swJwEzs4ryw2KDSNLQiNhRdBxmZr1p1d5BhU8vKekWSUskrZQ0M922WdLnJd0HnCDpPEn3S3pQ0tWShhYctpnZTnKcXrKpCk8CwAURMRmYAlwiaS9gNLAiIo4DngbOBk6MiKOBHcC59SeRNFNSh6SOVs3IZta6WjUJlKE56BJJZ6TLBwITSD7o/z3d9jZgMrA4HXp2FLCh/iQRMQeYAzB8+PDy/abNrG2V9QO+EYUmAUknA6cAJ0TEFkl3ASOBFzL3AQT8ICL+uZAgzcwa0KpJoOjmoD2AZ9MEMBE4vptjfgOcJWkfAEmvknRwM4M0M+uLm4N2zQJglqRlwGpgUf0BEbFK0meBOyQNAV4EPgo82dRIzcx60ar3IgtNAhGxFZjRza4xdcf9FPhpU4IyM+unsn7Lb0TRNQEzs7bgJGBmVmFOAmZmFeYkYGZWUZ5Uxsys4lwTMDOrMCcBM7MKcxIwM6swJ4ES6erqYtu2bYXGsHHjxkKvX/OrX/2q6BDYZ599ig4BgDPPPLPoEEgHQSzcH//4x6JDKM2N1Pvuu2/A5/DDYmZmFVeWpNZfTgJmZjlwTcDMrMJaNQkUPZS0mVnLa3QY6UYThaTpklZLWiPp093snyjpXklbJV1at+8JScvT6Xg7+rqWawJmZjnIqyaQzqH+HeDtwDqSWRXnRcSqzGHPAJcA7+7hNNMiorOR67kmYGaWgxxrAscCayLisYjYBvwEOL3uWhsiYjHJ/CoD4iRgZpaDrq6uhl7AOEkdmdfMulPtD6zNrK9LtzUqSCbhWtLNuf+Om4PMzAaon88JdEbElF72d/cwSX/amk6MiPXplLx3SnokIhb2dLBrAmZmOcixOWgdcGBm/QBgfT/iWJ++bwBuJmle6tGgJwFJ75H0sKTf9rPcPT1sv1bSWflEZ2aWjxyTwGJggqRDJA0HzgHmNVJQ0mhJY2vLwKnAit7KNKM56ELgIxGxUxKQNCwitvdUKCLeNOiRmZnlJK/eQRGxXdLFwO3AUGBuRKyUNCvdP1vSq4EO4BVAl6SPAYcD44Cb0+FJhgHXR8SC3q6XaxKQdAtJNWYkcAXwamAqcIikecBK4B/T/aMlvQu4FdgT2A34bETcmp5rc0SMUfLTfBt4K/A43beXmZkVJu9JZSJiPjC/btvszPJfSJqJ6j0HHNWfa+VdE7ggIp6RNIqkSnMSyYf3pRHRIel84ARgUnrcMOCMiHhO0jhgUdofNptSzwBeBxwJ7AusAubmHLeZ2YC06hPDeSeBSySdkS4fCEzo5pg7I+KZdFnAlyW9Begi6Qa1L/CXzPFvAW6IiB3Aekn/0d2F065QMwGGDPH9bjNrrsonAUknA6cAJ0TEFkl3kTT71Hs+s3wusDcwOSJelPRED2X6/O1GxBxgDsCwYcNa81/DzFpWqyaBPL8y7wE8myaAicDxDZbZkCaAacDB3RyzEDhH0lBJ+wHT8gvZzCwfeY4d1Ex5NgctAGZJWgasBhY1UObHwC/SQY4eBB7p5pibSe4rLAceBX6XS7RmZjkp6wd8I3JLAhGxFZjRza6TM8dcC1ybWe8kuVHc3fnGpO8BXJxXnGZmg8GTypiZVVjlawJmZlXmJGBmVlG+J2BmVnFOAmZmFeYkYGZWYe4dZGZWUb4nYGZWcU4CJSKJ3XbbrdAYNm7cWOj1a4YPH150CAwbVo4/sy1bthQdQmlMnDix6BDo7OwsOoRcOQmYmVWYk4CZWUXlPalMMzkJmJnlwDUBM7MKcxIwM6swJwEzswpzEjAzqyg/LGZmVnHuHWRmVmGtWhPIc6L5QSfpEkkPS/px0bGYmWV5ovnm+AgwIyIeLzoQM7Oasn7AN6K0SUDSx4EL0tVrgInAa4F5kuZGxLcKC87MrI6TQI4kTQY+ABwHCLgPOA+YDkyLiPYaecrMWp5vDOdrKnBzRDwPIOnnwJt7KyBpJjATYMiQlrrVYWYtzs1B+VN/C0TEHGAOwG677daa/xpm1rJaNQmU9SvzQuDdknaXNBo4A7i74JjMzHrk3kE5iogHJF0L3J9uuiYilkr9riCYmTVFGT/gG1HKJAAQEd8Evlm3bXwx0ZiZ9c5JwMysolp5Upmy3hMwM2sped4TkDRd0mpJayR9upv9EyXdK2mrpEv7U7aeawJmZjnIqzlI0lDgO8DbgXXAYknzImJV5rBngEuAd+9C2Z24JmBmloMcawLHAmsi4rGI2Ab8BDi97lobImIx8GJ/y9ZzEjAzG6BGE0CDSWB/YG1mfV26bVDKujnIzCwH/WgOGiepI7M+J33Ytaa7vvCNnrzfZZ0EzMxy0I/eQZ0RMaWX/euAAzPrBwDrGzx3v8u6OcjMLAc5NgctBiZIOkTScOAcYF6DYfS7bFvWBEaMGMH48eMLjWHLli2FXr+mDIPprV27tu+DmmDNmjVFh8CkSZOKDgGAYcOK/68/evTookPITZ5DQkTEdkkXA7cDQ4G5EbFS0qx0/2xJrwY6gFcAXZI+BhweEc91V7a36xX/l2Bm1gbyfGI4IuYD8+u2zc4s/4Wkqaehsr1xEjAzy4GHjTAzq7BWHTbCScDMbIDKOkx0I5wEzMxy4CRgZlZhTgJmZhXmJGBmVmFOAmZmFeVJZXaRpEskPSzp2UYmPzAzKytPNL9rPgLMiIjHu9spaVhEbG9yTGZm/VbGD/hGFJYEJM0GXgvMkzQX+E8RcbGka0lmzXkD8ICkK0lmytkb2AJ8MCIeKShsM7NuOQn0U0TMkjQdmAacVrf7UOCUiNgh6TfArIj4g6TjgCuBtzY5XDOzHpW1qacRRTcH9eSmNAGMAd4E3CS9NFfCiO4KSJoJzAQYPnx4U4I0M6txEsjX8+n7EOCvEXF0XwXSmXnmAIwZM6Y1/zXMrGW5d9AgiIjngMclvQdAiaMKDsvM7O+0au+gUieB1LnAhZIeAlYCpxccj5nZTnKeaL6pCm0Oiojx6eK16YuIOL/umMeB6U0My8ys38r4Ad+Ist4TMDNrKU4CZmYV1qo3hp0EzMwGqKzt/Y1wEjAzy4GTgJlZhTkJmJlVmJOAmVmFOQmYmVVUK08q05ZJYPv27Tz99NOFxvDcc88Vev2aUaNGFR0Cf/vb34oOAYB169YVHUJpjB07tugQ2LJlS9Eh5Mo1ATOzCnMSMDOrMCcBM7OK8sNiZmYV5yRgZlZh7h1kZlZhrgmYmVWU7wmYmVWck4CZWYW1ahLIdY5hSXdJWi3pwfT1s8y+mZIeSV/3S5qa2XeapKWSHpK0StKH8ozLzGywdXV1NfRqhKTp6WfpGkmf7ma/JP1bun+ZpGMy+56QtDz9DO7o61oDrglIGg7sFhHPp5vOjYiOumNOAz4ETI2IzjTgWyQdCzwNzAGOjYh1kkYA49Nye0bEswON0cxsMOV5T0DSUOA7wNuBdcBiSfMiYlXmsBnAhPR1HHBV+l4zLSI6G7neLtcEJB0m6RvAauDQPg7/FPCJWlAR8QDwA+CjwFiSZPR0um9rRKxOy50taYWkSyXtvauxmpkNtloi6OvVgGOBNRHxWERsA34CnF53zOnADyOxCHilpP12Je5+JQFJoyV9QNLvgWuAh4FJEbE0c9iPM81BX0u3HQEsqTtdB3BERDwDzAOelHSDpHMlDQGIiNkkGW8UsFDSz9JqUq7NWGZmA5VjEtgfWJtZX5dua/SYAO6QtETSzL4u1t/moD8Dy4CLIuKRHo75u+agHogkWCLiIklHAqcAl5JUg85P960FviDpi8B04HskCeVdO50s+WFnAgwb5vvdZtZc/WgOGlfXVj8nIuZk1tXd6evWezvmxIhYL2kf4E5Jj0TEwp6C6e+n5VnAhcDNkm4AfhARTzZQbhUwGfiPzLZj0u1J9BHLgeWSrgMeJ00CAOm9gw+QJIebgO/WXyD9Jc4BGDlyZGvepjezltWPJNAZEVN62b8OODCzfgCwvtFjIqL2vkHSzSTNSz0mgX41q0TEHRFxNjAV2AjcKunXksb3UfSrwOWS9gKQdDTJh/yVksZIOjlz7NHAk+lxp0paBnwRuAs4PCI+FhEr+xO3mdlgqk0qk1PvoMXABEmHpB1vziFpMs+aB7w/7SV0PLAxIv6cNtmPhaT5HjgVWNHbxXap3SQingauAK5Iv6XvyOz+saTaLCKdEXFKRMyTtD9wj6QANgHnpUGPBT4p6Wrgb8DzvFwLeBp4Z4O1DTOzwuTVOygitku6GLgdGArMjYiVkmal+2cD84F3AGuALSQtJQD7krTUQPL5fn1ELOjtegNuPI+I+zPLJ/dy3FUk3Zjqt28i+WG6K1N/M9nMrJTyfFgsIuaTfNBnt83OLAdJ78r6co8BR/XnWr6DamaWg1Z9YthJwMxsgDyAnJlZxTkJmJlVmCeVMTOrMNcEzMwqyvcEzMwqzknAzKzCnATMzCqsVW8Mq1WzV28kPUU6/pCZWR8OjogBzVciaQEwrsHDOyNi+kCul6e2TAJmZtYYT85iZlZhTgJmZhXmJGBmVmFOAmZmFeYkYGZWYf8fwfym+XBDBfcAAAAASUVORK5CYII=\n", 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" ] }, "metadata": { "needs_background": "light" }, "output_type": "display_data" } ], "source": [ "results(12) " ] }, { "cell_type": "code", "execution_count": 22, "metadata": { "ExecuteTime": { "end_time": "2021-04-02T02:49:03.779389Z", "start_time": "2021-04-02T02:49:03.433053Z" } }, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ "Input: what is the weather like today \n", "Target: comment est le temps aujourd'hui \n", "Predicted: quel temps fait il aujourd'hui \n" ] }, { "name": "stderr", "output_type": "stream", "text": [ "/home/edraff/anaconda3/lib/python3.7/site-packages/ipykernel_launcher.py:5: UserWarning: FixedFormatter should only be used together with FixedLocator\n", " \"\"\"\n", "/home/edraff/anaconda3/lib/python3.7/site-packages/ipykernel_launcher.py:6: UserWarning: FixedFormatter should only be used together with FixedLocator\n", " \n" ] }, { "data": { "application/pdf": 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\n", 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G1XUQulakGEREtFGKQURE5GqiiIjo3pZB9Zc0RET0iHY+3KZ81vsiSQ9KOqef9SdLuqecbpF0QMO6xZIWSrpL0vxWsqdlEBHRRu1oGUgaD3yZ4hHAy4DbJV1l+/6GzR4GXmP7KUnHAnOBVzSsn2V7RavHTDGIiGijNnUTHQY8aPshAEnfA47nz58Zf0vD9rcCO4/kgOkmiohoozZ1E+0ELG14vaxctjn/APysMQZwnaQFkma3kjstg4iINhni2ETTmvrz59qeW86rv7fv700kzaIoBjMbFh9ue7mkFwHXS3rA9ryBwlReDCQ9Y3vKELY/EljX1ESKiKiFIXQTrbA9YzPrlgG7NLzeGVjevJGk/YGLgWNtr2zIsLz8+bikKyi6nQYsBt3YTXQk8KqqQ0RE9KdN3US3A3tL2kPSRODNwFWNG0jaFfgh8Hbbv2lYPlnS1L554Gjg3sEOOOrFQNLZkt5fzp8v6Rfl/Gslfbuc/xdJd0u6VdIO5bLXS/qVpDsl3SBpB0m7A2cA/7u8ZOqI0c4fETEU7SgGtjcAZwLXAr8Gvm/7PklnSDqj3Ow8YHvgwqZLSHcAbpJ0N3Ab8FPb1wyWuxPdRPOADwNfBGYAkyRNoOjfuhE4GbjV9sckfRp4F/Ap4Cbgf9i2pNOAs21/WNIc4Bnbn+3vYOXJktkAu+666yj/0SIi/ly7bjqzfTVwddOyOQ3zpwGn9bPfQ8ABzcsH04lisAA4pGy2rAXuoCgKRwDvB9YBP2nY9nXl/M7A/5W0IzCR4praQZUnYOYCzJgxoztvBYyIrtTND7cZ9W4i2+uBxcCpwC0UrYFZwF4UzZ/13lhKn2NjgfoScIHtlwOnA9U+mCAiogXtugO50zp1AnkecFb580aKfv+7PPBvZFvgkXL+HQ3LVwFTRyNkRMRIpRgM7EZgR+CXth8D1pTLBvJx4DJJNwKNt1T/GDghJ5Ajoo66tRh05D4D2z8HJjS83qdhfkrD/OXA5eX8lcCV/bzXb4D9RzNvRMRw1PWDvhWV33QWEdFLUgwiIqJrryZKMYiIaKO0DCIixricM4iICCAtg4iIIMUgIiJIMailRYsW8epXv7rSDNtuu22lx++z3XbbVR2Bxx9/vOoIAKxfv77qCEyfPr3qCNx9991VRwDq8ffRLt08NlFPF4OIZr30wRP1lJZBRESkGERERIpBRESQYhARMeblBHJERABpGUREBCkGERFBikFExJiXgeoiIgLo3pZBp56BPCKSbqk6Q0REK55//vmWprrpipaB7VdVnSEiohVpGYwiSc+UP3eUNE/SXZLulXRE1dkiIvr0nTNoZaqbrmgZNHgrcK3tf5E0Hti6eQNJs4HZAJMmTepwvIgY6+r4Qd+KbisGtwNflzQB+JHtu5o3sD0XmAswderU7vxbiYiu1a3FoCu6ifrYnge8GngE+Jakv684UkTEn0k3UQdI2g14xPZXJU0GDgYurThWRASQsYk66UjgI5LWA88AaRlERK3U8Vt/K7qiGNieUv78JvDNiuNERGxWikFERKQYRERE9xaDrrqaKCKizvpOILdjOApJx0haJOlBSef0s/5kSfeU0y2SDmh13/6kGEREtFE7Li0tb6r9MnAssC/wFkn7Nm32MPAa2/sDn6S8v6rFfTeRYhAR0UZtus/gMOBB2w/ZXgd8Dzi+6Ti32H6qfHkrsHOr+/YnxSAioo2GUAymSZrfMM1ueJudgKUNr5eVyzbnH4CfDXNfICeQIyLaZoh3F6+wPWMz69Tf2/e7oTSLohjMHOq+jXq6GDzzzDPceOONlWbYfffdKz1+nxkzNvdvrnPWr19fdQQAxo8fX3UEnn322aoj8Nhjj1UdAejeq282p01/nmXALg2vdwaWN28kaX/gYuBY2yuHsm+zdBPFmFKHQhC9rU1XE90O7C1pD0kTgTcDVzVuIGlX4IfA223/Zij79qenWwYREZ3UrkHobG+QdCZwLTAe+Lrt+ySdUa6fA5wHbA9cKAlgg+0Zm9t3sGOmGEREtFG7ur1sXw1c3bRsTsP8acBpre47mBSDiIg26tZzICkGERFtlGIQETHG5XkGEREBpGUQERGkGEREBCkGERFB9xaDyu9AlrSdpPeU80dK+knVmSIihqPVQerqWDAqLwbAdsB7qg4REdEO7Xq4TafVoZvoX4G9JN0FrAeelXQ58DJgAfA225Z0CPDvwBRgBXCK7UcryhwR0a86futvRR2KwTnAy2wfKOlI4EpgP4pR9m4GDpf0K+BLwPG2n5B0EvAvwDub36wcE3x28/KIiE5IMWif22wvAyhbC7sDf6BoKVxfDsg0Hui3VWB7Lhsf/9adfysR0ZXqej6gFXUsBmsb5p+jyCjgPtuvrCZSRERrurUY1OEE8ipg6iDbLAKmS3olgKQJkvYb9WQREUPUrVcTVd4ysL1S0s2S7gVWA5s8fsn2OkknAl+UtC1F7s8Dg47RHRHRSXW8UqgVlRcDANtv3czyMxvm7wJe3alMERFDVddv/a2oRTGIiOgVKQYREZFiEBERKQYREWNeHm4TERFAWgYREUGKQUREkGIQERGkGNTSuHHjmDx5cqUZ9thjj0qP32fHHXesOgJHHXVU1REAWL58edURWL16ddURWL9+fdURACr/P9rnvvtGPqBBbjqL6BJ1KATR23I1UUREpGUQEREpBhERY17OGUREBJCWQUREkGIQERHkaqKIiDGvm88Z1OEZyBERPaNdz0CWdIykRZIelHROP+tfKumXktZKOqtp3WJJCyXdJWl+K7k7XgwknSLpxQ2vF0ua1ukcERGjoR3FQNJ44MvAscC+wFsk7du02ZPA+4HPbuZtZtk+0PaMVnJX0TI4BXjxYBu1QlK6uSKiVtrUMjgMeND2Q7bXAd8Djm86zuO2bwfaMq7IoMVA0tmS3l/Ony/pF+X8ayV9W9LRZVPlDkmXSZpSrj9P0u2S7pU0V4UTgRnAd8rmy1blYd5X7r9Q0kvL/SdL+nr5HndKOr5cfkp5nB8D17XjlxAR0Q59D7dpZRrETsDShtfLymUtRwGuk7RA0uxWdmilZTAPOKKcnwFMkTQBmAksBM4FjrJ9MDAf+FC57QW2D7X9MmAr4Djbl5fbnFw2X/pG61pR7n8R0Nf39THgF7YPBWYBn5HUN6LVK4F32P7rVv6QERGdMoSWwTRJ8xumxg9t9ffWQ4hxePmZeizwXkmvHmyHVrpZFgCHSJoKrAXuoCgKRwBXUfRn3SwJYCLwy3K/WZLOBrYGXgjcB/x4M8f4YcOx3ljOHw28oeHEyJbAruX89baf7O+Nyl/o7HK+hT9eRET7DOFqohUD9OcvA3ZpeL0z0PIoi7aXlz8fl3QFRbfTvIH2GbQY2F4vaTFwKnALcA/FN/W9gIcpPpjf0riPpC2BC4EZtpdK+jjFh/nmrC1/PteQScCbbC9qeu9XAM8OkHcuMBdg/Pjx3XmNV0R0rTZdWno7sLekPYBHgDcDb21lx7IHZZztVeX80cAnBtuv1RPI8yi6b+YBNwJnAHcBtwKHS/rLMsTWkvZh4wf/ivIcwokN77UKmNrCMa+lOJeg8r0PajFrRERl2nEC2fYG4EyKz8FfA9+3fZ+kMySdASDpLyQto+iaP1fSMknbADsAN0m6G7gN+KntawbL3erVODdS9OH/0vazktYAN9p+QtIpwHclTSq3Pdf2byR9leKcwmKKKtfnG8AcSasp+v4355PA54F7yoKwGDiuxbwRER3XzpvObF8NXN20bE7D/O8puo+a/RE4YKjHa6kY2P45MKHh9T4N878ADu1nn3MpTi43L/8B8IOGRbs3rJsPHFnOrwZO72f/b1AUlIiI2slwFBER0bXDUaQYRES0UYpBRMQY180D1aUYRES0UYpBRESkGERERK4miogY83LOICIigHQT1ZIkJk6cWGmGxx9/vNLj91m6dOngG42yDRs2VB0BgPXr2zL8+4g89dRTVUdg+vTpVUcAYNy43nrgYopBRBeoQyGI3pZiEBExxvU93KYbpRhERLRRWgYREZFiEBERKQYREUGKQUTEmJebziIiAshwFBERQfd2E1V+65+kZ8qfL5Z0eTl/iqQLqk0WETF0zQ++39xUN7VpGdheDpxYdY6IiOGq6wd9KypvGfSRtLuke/tZ/reSfilpmqSjy/k7JF0maUoVWSMiNqdbWwa1KQb9kXQCcA7wN+Wic4GjbB8MzAc+VFW2iIj+PP/88y1NdVObbqJ+zAJmAEfb/qOk44B9gZslAUwEftm8k6TZwGzovdEQI6Le6vqtvxV1LgYPAXsC+1C0AgRcb/stA+1key4wF2CLLbbozr+ViOha3VoM6vzVeQnwRuBSSfsBtwKHS/pLAElbS9qnyoAREc1yzmAU2F4EnAxcBmwDnAJ8V9I9FMXhpdWli4jYVLcWg8q7iWxPKX8uBl5Wzn8D+EY5fyfFuQKA3wGHdjpjRESr6vhB34rKi0FERK/Iw20iIgJIyyAiIkgxiIgIUgwiIsa8ul4p1IoUg4iINurWYlDr+wwiIrpNu8YmknSMpEWSHpR0Tj/rX1oO3LlW0llD2bc/aRlERLRRO1oGksYDXwZeBywDbpd0le37GzZ7Eng/8D+Hse8meroYTJo0iT333LPSDFtsUY9f8apVq6qOwNZbb111BAB22WWXqiOwdu3aqiMwceLEqiMAsGbNmqojtE0bzxkcBjxo+yEASd8Djgf+9IFu+3HgcUl/O9R9+5NuohhT6lAIorcNYTiKaZLmN0yzG95mJ2Bpw+tl5bJWDGvfenxtjYjoEUNoGaywPWMz69TfW7f4vsPaN8UgIqKN2jQcxTKgsRm7M7B8NPdNN1FERJu02kXUQuvhdmBvSXtImgi8GbiqxRjD2jctg4iINmrHCWTbGySdCVwLjAe+bvs+SWeU6+dI+guKB39tAzwv6YPAvuWTITfZd7BjphhERLRRu246s301cHXTsjkN87+n6AJqad/BpBhERLRRt96BnGIQEdFGKQYREWNcNz/cpu1XE0naTtJ7hrjPNySd2O4sERGd1q3PQB6NS0u3A4ZUDCIiekWKwUb/Cuwl6S5JnymneyUtlHQSgAoXSLpf0k+BF/XtLOk8SbeX+8wtt91L0h0N2+wtacEoZI+IGJEUg43OAX5n+0DgVuBA4ADgKOAzknYETgBeArwceBfwqob9L7B9qO2XAVsBx9n+HfC0pAPLbU4FvjEK2SMihq2NN5113GjfgTwT+K7t52w/BvwXcCjw6obly4FfNOwzS9KvJC0E/hrYr1x+MXBqOTzrScB/9HdASbP7Bn7asGHDKP2xIiL6163FYLSvJupvwKQ+m/w2JG0JXAjMsL1U0seBLcvVPwD+iaJwLLC9st83tecCcwEmT55cv994RPS0XE200Spgajk/DzhJ0nhJ0ylaBLeVy99cLt8RmFVu3/fBv0LSFOBPVxjZXkNxe/VFwCWjkDsiYsTSMijZXinpZkn3Aj8D7gHupmgJnG3795KuoOgCWgj8hqL7CNt/kPTVcvliigGXGn0HeCNwXbtzR0SMVF0/6FsxKt1Ett/atOgjTesNnLmZfc8Fzt3MW8+kGHTpuRGHjIgYBSkGo6xsTexF0aKIiKilFINRZvuEqjNERAymW08gd00xiIiou5wziIgIIN1EERFBikFERJBiEBERpBhERIx53fxwm54uBpIYN260x+Ib2HPP1eP+uKeffrrqCKxZs6bqCCxZsoTtt9++6hjUYRDFKVOmVB0BgHXr1lUdoa3SMojoAnUoBNHbUgwiIiLFICJirMtNZxERAaRlEBERZGyiiIggLYOIiDEv5wwiIgJIyyAiIkgxiIgIuvcEctvHapD0n5IWSbqrnC5vWDdb0gPldJukmQ3rjpN0p6S7Jd0v6fR2Z4uIGE195wxameqmLS0DSROBCbafLRedbHt+0zbHAacDM22vkHQw8CNJhwErgbnAYbaXSZoE7F7u9wLbT7UjZ0TEaKvjB30rRtQykPRXkj4HLAL2GWTzjwIfsb0CwPYdwDeB9wJTKQrTynLdWtuLyv1OknSvpLMkTR9J3oiI0dauloGkY8pelgclndPPekn6Yrn+nvILdt+6xZIWlr0z85v37c+Qi4GkyZJOlXQTcDHwa2B/23c2bPadhm6iz5TL9gMWNL3dfGA/208CVwFLJH1X0smSxgHYngMcC2wFzJN0eflL6jd72RU1X9L89evXD/WPFxExIu0oBpLGA1+m+OzbF3iLpH2bNjsW2LucZgMXNa2fZftA2zNayT2cbqJHgXuA02w/sJltNukm2gwBBrB9mqSXA0cBZwGvA04p1y0FPinpU8AxwNcoCssbmt/Q9lyKLiemTJnSne21iOhabeomOgx40PZDAJK+BxwP3N+wzfHApS4OeKuk7STtaPvR4RxwON1EJwKPAFdIOk/Sbi3udz9wSNOyg2n4w9leaPt8ikLwpsYNy3MLFwJfAi4D/nEY2SMiRk3fw21amQaxE7C04fWyclmr2xi4TtICSbNbyT7kloHt68qDbA+8DbhS0gqKlsLiAXb9NPBvko6xvVLSgRTf/F8haQoww/Z/ltseCCwBkHQ08Fng9xQtgg/Y7q2nYUREzxhCy2BaU3/+3LJnA4pek03euun1QNscbnu5pBcB10t6wPa8gcIM+2oi2yuBLwBfKL+1Nz7S6zuSVpfzK2wfZfsqSTsBt0gysAp4m+1HJU0Fzpb0FWA18CxlFxHFSeXX214y3KwREZ0yhGKwYoD+/GXALg2vdwaWt7qN7b6fj0u6gqLbaXSKQSPbtzXMHznAdhex6UkObK8C/mYz+zSfdI6IqK02nTO4Hdhb0h4U3fJvBt7atM1VwJnl+YRXAE+XX64nA+NsryrnjwY+MdgBcwdyRESbtOuGMtsbJJ0JXAuMB75u+z5JZ5Tr5wBXU3yJfhD4b+DUcvcdKM7pQvEZ/x+2rxnsmCkGERFt1K6bzmxfTfGB37hsTsO8Ke7Tat7vIeCAoR4vxSAioo26dWyiFIOIiDbq1uEoUgwiItqkroPQtSLFICKijVIMIiKia4tB259nEFFnK1eurDpC9Lg2DUfRcerWKtYKSU9QDmsRETGI3WyPaJh8SdcA01rcfIXtY0ZyvHbq6WIQERGtSTdRRESkGERERIpBRESQYhAREaQYREQE8P8BEaQBWHRFKecAAAAASUVORK5CYII=\n", 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\n", 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\n", 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